KR101608492B1 - Coupler for leakage test - Google Patents

Abstract

The present invention relates to a coupler for an airtight test for a gas leak, comprising: a body portion penetrated with different diameters and wherein an inlet of a pipe is inserted in an axial direction on one side having a smaller diameter of the two sides, is provided with a stepped portion at positions with different diameters on an inner circumferential surface, and is provided with a sliding groove guiding both sides of the outer circumferential surface in a supported state to be slid between one side to which the inlet is inserted and the stepped portion; a connection portion which has one side screwed to an other side of the body portion and the other side coupled to a gas supply pipe; a sealing member provided to seal the end of the inlet and the inner circumferential surface of the body portion in a state where an upper end surface is supported to the stepped portion; an elastic member placed on an upper surface of the connection portion, elastically supporting a lower surface of the sealing member; and an opening and closing means provided on both sides of the body portion, a separation prevention portion to prevent the slide bar inserted to the slide groove from being separated and an elastic restoration portion to move the slide bar in any one direction to an original position, and is provided with a hole penetrating the slide bar up and down in a sliding direction such that the inlet is inserted into the body portion.

Description

Coupler for airtight test {COUPLER FOR LEAKAGE TEST}

More particularly, the present invention relates to a coupler for a hermetic test, and more particularly to a hermetic test coupler capable of easily connecting and separating to one end of a member to be inspected and maintaining a rigid hermetic state in a coupled state, And to a hermetic test coupler which can easily carry out a hermetic test.

Generally, a plurality of pipes for moving a refrigerant are coupled to an air conditioner. In order to couple the plurality of pipes, a thread is formed on the outer surfaces of both ends of the pipe, and then screwed to the outer surface of the pipe, A method of joining a nut or welding or the like was used.

In this case, when coupling using a nut, a sealing member such as a tape made of PTPE (Poly Tetra Fluoro Ethylene) is wound to a predetermined thickness on the threaded outer surface of the pipe, and then the nut is coupled so that the threaded portion is sealed However, due to problems such as abrasion or breakage of the sealing member due to use for a certain period of time and replacement at any time, a welding connection method is usually used.

Especially, in the case of a piping in which refrigerant of high temperature and high pressure moves, the airtightness test must be preceded in order to prevent a product failure, cost loss, environmental pollution, and the like due to leakage of refrigerant at the joint portion.

However, since it is difficult to confirm whether or not the welded joint has been properly combined by the naked eye inspection, it is possible to connect a fluid or gas supply device to one side of a plurality of pipes connected to each other and close the end of the pipe on the opposite side Couplers were connected to each other to confirm whether bubbles were generated in a water tank, or a pressure gauge was combined to test whether the set pressure was maintained.

However, in order to repeat this airtightness test, it is necessary to repeatedly join and separate the coupler for closing the end of the pipe, so that it is possible to easily join and separate the pipe, A coupler was needed.

In the conventional Korean Utility Model No. 167980, a coupler body 10, a lever 20 which is coupled by a pin shaft 30 inserted into and coupled to the coupler body and rotates, A collet member (50) having a toothed portion (50a) formed on the end surface so as to hold the injection port of the auxiliary tank for refrigerant, and a first elasticity member (50) for returning the collet member A coupler is proposed which comprises a member 60, a case 70 rotatably coupled to the coupler body so as to adjust the engagement length of the injection port by the collet member, and a double nut 80 for fixing the rotation of the case.

If the lever is operated so as to be perpendicular to the coupler body in a state where the injection port of the auxiliary tank for the coolant is inserted into the outer surface of the gas injection member, the gas injection member and the collet member slide while the tooth portion formed on the end surface of the collet member The inlet of the auxiliary tank is securely held, so that the auxiliary tank for the refrigerant can be inspected.

However, since such a coupler has a plurality of components mutually screwed together, it is troublesome to assemble and disassemble them, and the number of cases in which repair is required due to breakage of each component increases.

The contact surface of the lever 20 or the lug piece 40b due to the continuous friction between the lug 20 and the lug piece 40b of the gas injection member 40, which are rotationally operated for fixing the injection port of the auxiliary tank for the coolant, It is impossible to perform the normal sliding movement of the gas injection member 40 and the collet member 50. As a result, the toothed portion can not firmly hold the injection port of the auxiliary tank for the refrigerant, It is difficult to maintain normal operation.

Korean Registered Utility Model No. 167980 (Feb. 15, 2000, Coupler) Korean Registered Utility Model 170273 (Feb. 15, 2000, Coupler) Korean Registered Utility Model No. 463807 (November 26, 2012, pipe leakage inspection device for indoor air conditioner and outdoor unit) Korea Publication No. 2013-0123692 (November 13, 2013, Coupling Mechanism for Confidential Test)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a tightness test coupler which can easily and easily be coupled to one end of a member to be inspected, .

It is another object of the present invention to provide a coupler for airtightness test that can prevent damage such as collapsing of a coupling portion in a process of coupling with a member to be inspected and airtightness testing.

Another object of the present invention is to provide an airtightness test coupler which can increase the durability of the airtightness test while reducing the manufacturing cost through a simple structure.

In order to achieve the above-mentioned object, the present invention is to achieve the above-mentioned object. In order to achieve the above-mentioned object, the present invention provides a water- A body portion having an inlet port of the pipe to be inserted in the axial direction and provided with slide grooves guided to be slid in a direction intersecting the axial direction supported on both sides of the outer circumferential surface, And a gas supply pipe for supplying a gas to the pipe is connected to the other side of the connection pipe. The inside of the connection pipe is inserted into the other side of the body, And is configured to seal the end of the injection port and the inner circumferential surface of the body portion A first elastic member elastically supporting a lower surface of the sealing member so as to be held in contact with the injection port and being seated on the upper surface of the connection portion; And a resilient restoring portion for resiliently restoring the resilient restoring portion after the movement is completed are provided on both sides of the body portion, and the slide bar inserted into the slide groove is provided with a through hole penetrating upward and downward along the sliding direction, When the slide bar is moved to one side, the injection port can be inserted through a hole having a larger size. When the slide bar is restored to its original position in a state where the injection port is in close contact with the sealing member, Opening and closing means provided so that the outer surface of the injection port is firmly pressed, To be preferred.

Here, the inner diameter of one side of the body portion and the outer diameter of the injection port are different from each other, and the through hole has a size corresponding to the inner diameter of one side of the body portion, and a support hole having a size corresponding to the outer diameter of the injection port It is preferable to be provided so as to communicate with each other.

In addition, the opening / closing means may include a fixing hole formed at an end of the slide bar to be inserted, a fixing piece coupled to the fixing hole to prevent the slide bar from separating from the fixing hole, And a guide bar which is coupled to the outer surface of the body portion so as to be perpendicular to the inner surface of the guide portion and which is inserted into the end of the guide bar together with the slide bar, A second elastic member inserted into the outer surface of the guide bar so as to be elastically restored to the original position in a state where the slide bar is completely moved and supported on both sides between the body portion and the guide bar, .

A protruding portion coupled to an end of the injection port and protruding outward from an upper outer circumferential surface so as to be supported by the lower surface of the slide bar and the support hole when the slide bar is elastically restored when the slide bar is inserted into the body portion; And an engagement assisting member provided with a screw engagement groove formed on an outer circumferential surface between the projecting / retreating portion and the end portion.

The sealing member may include an insertion groove formed in the upper side thereof so as to be recessed in the axial direction, a ring-shaped packing inserted in the insertion groove to firmly support and close the end of the injection port, And a coupling ring inserted into the coupling groove to firmly support and seal the inner circumferential surface of the body portion.

As described above, the airtightness testing coupler according to the present invention can easily and easily be coupled to one end of a member to be inspected, and can maintain a firm hermetic state in a coupled state.

In addition, there is an effect that it is possible to prevent damage such as collapse of the joint portion in the process of bonding with the member to be inspected and in the airtightness testing process.

In addition, it is possible to increase the durability and increase the efficiency of the work while reducing the manufacturing cost through a simple structure.

1 is an exploded perspective view showing a conventional hermetic test coupler,
2 is a perspective view according to the first embodiment of the present invention,
Fig. 3 is an exploded perspective view of Fig. 2,
4 is a cross-sectional view taken along line AA in Fig.
5 is a perspective view showing a state before the guide portion according to the first embodiment of the present invention is pressed,
FIG. 6 is a perspective view showing a state in which the guide portion is pressed in FIG. 5,
FIG. 7 is a perspective view showing a state in which the coupling assisting member is inserted into the body portion in FIG. 6;
8 is a perspective view showing a state in which the pressurized guide portion is elastically restored in FIG.

Prior to the description, components having the same configuration are denoted by the same reference numerals as those in the first embodiment. In other embodiments, configurations different from those of the first embodiment will be described do.

The airtightness testing coupler according to the first embodiment of the present invention includes a body 100, a connecting portion 200, a sealing member 300, a first first elastic member 400, and an opening / And will be described in detail with reference to the accompanying drawings.

Here, the body 100, the connecting portion 200, and the sealing member 300 are hollowed in the axial direction so that gas can be injected into the pipe P to be subjected to the airtightness test do.

As shown in FIGS. 2 to 4, the body part 100 is for penetrating the injection port S of the pipe P to be subjected to the airtightness test, and has a hollow inner circumferential surface penetrating through different diameters, A step portion 110 to which the sealing member 300 is closely contacted and supported is provided at a position spaced a certain distance from the upper end surface having a small diameter on either side of the step portion 110. The step portion 110 is supported on both sides of the outer circumferential surface of the body portion 100, The slide groove 120 is provided to guide the slide groove 120 to slide in the direction of the arrow.

The inner diameter of the upper part of the body part 100 is larger than the outer diameter of the injection port S so that the injection port S of the pipe P to be inspected is arranged in the axial direction from the upper side of the body part 100 So that it can be inserted easily.

The connection part 200 is formed with a screw thread 210 on an upper outer surface thereof and is screwed to the lower side of the body part 100. The lower side of the connection part 200 is connected to a gas supply pipe D, and the outer surface may be formed in a polygonal shape so as to be easily coupled and separated using a conventionally known hand tool.

The sealing member 300 is provided so that the gas supplied from the gas supply pipe D is supplied to the pipe P without leaking. The upper end surface of the sealing member 300 is inserted into the lower portion of the body portion 100 And the outer surface is provided to have a size corresponding to the inner circumferential surface of the body portion 100. [

At this time, in order to more firmly maintain the airtight state through the sealing member 300, a ring-shaped packing 311 which is tightly supported at the end of the injection port S is further provided on the upper side, And a coupling ring 321 coupled to the inner circumferential surface of the body 100 to be coupled to the insertion groove 310 formed to be received in the inserted state and the sealing member 300 is moved up and down It is preferable to engage with the coupling groove 320, which is formed in a belt-like shape, so as to maintain a firmly coupled state even during gas supply for the airtightness test.

The first first elastic member 400 maintains the state in which the sealing member 300 is closely contacted with the step 110 or the injection port S and is held in the injection port S during the gas supply for the airtightness test And both sides thereof are respectively supported by the lower surface of the sealing member 300 and the upper surface of the connection portion 200. [

At this time, in order to prevent the first first elastic member 400 from being arbitrarily moved in a coupled state, the lower surface of the sealing member 300 is provided with a recess And a mounting groove 220 is provided on the upper surface of the connection part 200 to receive and fix the first first elastic member 400 therein.

The opening and closing means 500 is configured to allow the injection port S to be inserted when the slide bar 510 inserted into the slide groove 120 is moved to one side and to fix the inserted injection port S when the slide bar 510 is moved to the opposite side A separation preventing part 520 for preventing the slide bar 510 from being detached from the slide groove 120 when the slide bar 510 is inserted into the slide groove 120 and an elastic restoring part 520 for supporting and restoring the movement of the slide bar 510 through an elastic force, (530) are provided on both sides of the body part (100).

The through hole 540 is formed in the slide bar 510 so as to pass through the slide bar 510 in a size corresponding to the outer diameter of the injection port S, And an insertion hole 541 provided on the other side of the slide bar 510 in a size corresponding to the inner diameter of the upper side of the body part 100. The insertion hole 541 is formed in the insertion hole 541, And the support hole 542 are provided to communicate with each other.

The outer surface of the injection port S inserted into the body 100 through the insertion hole 541 is connected to the support hole 542 at the portion where the insertion hole 541 and the support hole 542 communicate with each other when the slide bar 510 is elastically restored. Is formed to have a size equal to or larger than the diameter of the support hole 542 so as to be supported by the inner circumferential surface of the hole 542.

The detachment preventing portion 520 includes a fixing hole 521 formed through the end of the slide bar 510 at which the slide bar 510 is inserted and a stopper 521 coupled to the fixing hole 521 and supported by the outer surface of the body portion 100, And a fixing piece 522 for preventing the detachable member 510 from coming off.

The elastic restoring portion 530 includes a guide portion 531 that is bent downward while being spaced apart from the outer surface of the body portion 100 and a guide portion 531 that is perpendicular to the outer surface of the body portion 100 facing the inner surface of the guide portion 531. [ A guide hole 533 penetrating the inner and outer surfaces of the guide part 531 to be moved together with the slide bar 510 while being inserted into the end of the guide bar 532, And is inserted into the outer surface of the guide bar 532 such that both sides thereof are supported between the body 100 and the guide bar 532 to provide an elastic force so that the slide bar 510 is restored to its original position And a second elastic member 534.

The end of the injection port S is closely contacted with the sealing member 300 and the slide bar 510 while being inserted into the body 100 so that a more rigid airtight state is maintained, The coupling assisting member 600 may be further combined to prevent damage due to direct pressurization.

When the slide bar 510 is resiliently restored in the state where it is inserted into the body 100, the assisting assisting member 600 may include a pressing support portion 610 supported on the inner peripheral surface of the support hole 542, A protruding support portion 620 protruding outward from the upper outer circumferential surface so as to be hermetically inserted and supported by the lower surface of the protruding support portion 620 and a screw coupling groove 630 formed on the outer circumferential surface of the protruding support portion 620 from the lower side .

At this time, in the state where the coupling assistant member 600 is engaged, the diameter of the support hole 542 should be formed to have a diameter corresponding to the joining support portion.

The operation of the airtightness testing coupler having the above configuration will be described below.

The injection port S of the pipe P to be inspected can be inserted into the body part 100 according to the first embodiment. In the following description, the injection port S of the pipe P and the coupler are in a tight hermetic state The coupling assistant member 600 is coupled to the end of the injection port S so that the coupling assistant member 600 is inserted between the sealing member 300 and the slide bar 510. FIG.

5 to 8, when the pipe P to be inspected for airtightness is prepared, the guide portion 531 is pressed so that the inner diameters of the insertion hole 541 and the body portion 100 coincide with each other, The auxiliary member 600 is inserted into the body part 100.

After the coupling assistant member 600 is inserted into the body 100, the protruding support portion 620 is pushed until the end of the coupling assisting member 600 is brought into close contact with the sealing member 300, In a state of being pressed so as to be positioned on the lower surface of the base plate.

When the pressure applied to the guide portion 531 is released in a state where the coupling assistant member 600 is inserted into the body portion 100, the guide portion 531 is rotated by the restoring force of the second elastic member 534, The guide bar 532 inserted into the guide bar 532 is restored to its original state.

Since the slide bar 510 is formed integrally with the guide bar 532, the slide bar 510 is slid together by the restoring force of the second elastic member 534 and the protruding support portion 620 is pressed downward of the slide bar 510 The slide bar 510 is restored to its original position so that the state in which the pressing support portion 610 is supported by the support hole 542 communicated with the insertion hole 541 is maintained.

After the connection with the pipe P to be inspected is completed, the lower side of the connection portion 200 is connected to the gas supply pipe D, and the gas tightness test is performed by the supplied gas.

Hereinafter, the coupling part 200 and the gas supply pipe D are connected before the coupling of the pipe P and the body part 100 to be inspected, So that it can be coupled to the body part 100.

As described above, when the connection of the pipe P to be inspected, the body 100, the connecting portion 200, and the gas supply pipe D is completed, the gas is supplied through the gas supply pipe D, In the state where the above-described combined structures are immersed in the filled water tank, the airtight state is checked through bubble generation due to gas leakage, and in the state where the pressure gauge is coupled, the airtight state is confirmed by changing the pressure.

The airtightness test of the pipe (P) through the gas supply pipe (D) can be carried out by one of the method of grasping the pipe (P) and the method of confirming by means of the pressure gauge. You can.

Here, when the gas is supplied from the gas supply pipe D, even if the sealing auxiliary member 600 and the sealing member 300 are in close contact with each other, they are separated from each other, so that relatively high pressure is applied to the separated portion .

At this time, since the sealing member 300 is elastically supported by the first elastic member 400, the initial high pressure at which the gas is supplied can be buffered, and then, when the constant pressure is maintained, So that the coupling assisting device and the coupler can be prevented from being damaged and a rigid hermetic state can be maintained.

After the airtightness test of the piping P is completed, the guide bar 532 is pressed in the same manner as when the coupling assistant member 600 is inserted into the body portion 100 so that the insertion hole 541 and the body When the pressure applied to the guide bar 532 is released after the coupling assisting member 600 is detached from the body 100 in such a manner that the central portions of the inner diameter of the pipe 100 are aligned with each other, When the airtightness test is performed on a plurality of pipelines P, the test is simply terminated. When the airtightness test is performed on the plurality of pipelines P, Repeat the process to check if the gas is leaking.

As described above, the airtightness testing coupler according to the present invention can easily and easily be coupled to one end of a member to be inspected, and can maintain a rigid hermetic state in a coupled state, It is possible to prevent damages such as collapsing of the joint portion in the airtightness testing process and to increase the durability while reducing the manufacturing cost through a simple structure, thereby increasing the efficiency of the operation.

The scope of the present invention is not limited to the above-described embodiments, but may be embodied in various forms of embodiments within the scope of the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

100: Body part 110:
120: slide groove 200:
210: threads 220: seat groove
300: sealing member 310: insertion groove
311: packing 320: engaging groove
321: Coupling ring 330:
400: first elastic member 500: opening / closing means
510: slide bar 520:
521: Fixing hole 522: Fixing piece
530: elastic restoring portion 531: guide portion
532: guide bar 533: guide hole
534: second elastic member 540: through hole
541: insertion hole 542: support hole
600: coupling assisting member 610: pressing support
620: projecting support portion 630: screwing groove
D: gas supply pipe P: piping
S: Inlet port

Claims (6)

The injection port S of the pipe P to be inspected is inserted in the axial direction in one side of the small diameter of both sides so that the stepped portion 110 is provided on the hollow inner circumferential surface, And a slide groove (120) guided to slide in a state of being supported on both sides of the outer peripheral surface between the step portion (110);
And a gas supply pipe D for supplying a gas to the pipe P is connected to the other side of the body portion 100. The gas supply pipe A connection part 200 to be provided;
The upper end of the injection port S and the upper end of the body 100 are connected to each other so that the upper end of the injection port S is connected to the upper end of the injection port S, A sealing member (300) provided to seal the inner peripheral surface;
A first elastic member 400 for holding the sealing member 300 on the upper surface of the connection portion 200 to elastically support the lower surface of the sealing member 300 so as to maintain the sealing member 300 in close contact with the injection port S, );
The slide bar 510 moves along the slide groove 120 to prevent the slide bar 510 from being separated from the slide bar 510 when the slide bar 510 is moved in one direction, The injection port S can be inserted into the body part 100 when the slide bar 510 is moved to one side and the state where the injection port S is inserted A through hole 540 extending upward and downward along the sliding direction of the slide bar 510 so that the outer surface of the injection port S can be pressed and supported when the slide bar 510 is moved to its original position, (500)
The through hole 540 has an insertion hole 541 having a size corresponding to the inner diameter of the body 100 so that the injection port S can be inserted into the insertion hole 541, S are provided so as to communicate with each other, and a support hole 542,
The release preventing part 520 includes a fixing hole 521 formed at an end of the slide bar 510 at which the slide bar 510 is inserted and a fixing hole 521 coupled to the fixing hole 521 and supported on the outer surface of the body part 100 And a fixing piece (522) for preventing the slide bar (510) from coming off,
The elastic restoring portion 530 includes a guide portion 531 bent downwardly away from the outer surface of the body portion 100 and an outer surface of the body portion 100 facing the inner surface of the guide portion 531. [ The guide bar 532 is inserted into an end of the guide bar 532 so as to be moved together with the slide bar 510. The guide bar 532 is inserted into the guide bar 532, The slide bar 510 is inserted into the outer surface of the guide bar 532 such that both sides thereof are supported between the body part 100 and the guide bar 532, And a second elastic member (534) for providing an elastic force to be restored to the position,
When the slide bar 510 is elastically restored in a state of being inserted into the body part 100 while being spaced from the end of the injection hole S, the injection hole S can be supported by the inner circumferential surface of the support hole 542 A protruding support portion 620 protruding outwardly from a lower outer circumferential surface of the pressing support portion 610 so as to be hermetically inserted and supported by the lower surface of the slide bar 510; , And a coupling assisting member (600) comprising a screwing groove (630) in which a thread is formed on a lower outer circumferential surface of the protruding support part (620). delete delete delete The method according to claim 1,
The sealing member 300 includes an insertion groove 310 which is formed in an upper side in an axial direction and which is formed to be axially depressed and a ring shape insertion hole 310 which is inserted into the insertion groove 310 to firmly support and close the end of the injection hole S And a coupling ring 320 inserted in the coupling groove 320 and formed to be firmly supported and closed by the inner circumferential surface of the body portion 100. [ 321). ≪ / RTI > delete

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